Physiological levels of adrenaline fail to stop pancreatic beta cell activity at unphysiologically high glucose levels

Adrenaline inhibits insulin secretion from pancreatic beta cells to allow an organism to cover immediate energy needs by unlocking internal nutrient reserves. The stimulation of α2-adrenergic receptors on the plasma membrane of beta cells reduces their excitability and insulin secretion mostly throu...

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Published in:	Frontiers in endocrinology (Lausanne) Vol. 13; p. 1013697
Main Authors:	Sluga, Nastja, Križančić Bombek, Lidija, Kerčmar, Jasmina, Sarikas, Srdjan, Postić, Sandra, Pfabe, Johannes, Skelin Klemen, Maša, Korošak, Dean, Stožer, Andraž, Slak Rupnik, Marjan
Format:	Journal Article
Language:	English
Published:	Switzerland Frontiers Media S.A 25-10-2022
Subjects:	[Ca2+]c oscillations adrenaline Animals beta cells cAMP concentration dependency Endocrinology Epinephrine Glucose - metabolism Insulin - metabolism Insulin-Secreting Cells - metabolism islets Islets of Langerhans - metabolism Mice Pancreatic Hormones - metabolism forskolin [Ca2+]c oscillations adrenaline concentration dependency islets cAMP beta cells
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Abstract	Adrenaline inhibits insulin secretion from pancreatic beta cells to allow an organism to cover immediate energy needs by unlocking internal nutrient reserves. The stimulation of α2-adrenergic receptors on the plasma membrane of beta cells reduces their excitability and insulin secretion mostly through diminished cAMP production and downstream desensitization of late step(s) of exocytotic machinery to cytosolic Ca concentration ([Ca ] ). In most studies unphysiologically high adrenaline concentrations have been used to evaluate the role of adrenergic stimulation in pancreatic endocrine cells. Here we report the effect of physiological adrenaline levels on [Ca ] dynamics in beta cell collectives in mice pancreatic tissue slice preparation. We used confocal microscopy with a high spatial and temporal resolution to evaluate glucose-stimulated [Ca ] events and their sensitivity to adrenaline. We investigated glucose concentrations from 8-20 mM to assess the concentration of adrenaline that completely abolishes [Ca ] events. We show that 8 mM glucose stimulation of beta cell collectives is readily inhibited by the concentration of adrenaline available under physiological conditions, and that sequent stimulation with 12 mM glucose or forskolin in high nM range overrides this inhibition. Accordingly, 12 mM glucose stimulation required at least an order of magnitude higher adrenaline concentration above the physiological level to inhibit the activity. To conclude, higher glucose concentrations stimulate beta cell activity in a non-linear manner and beyond levels that could be inhibited with physiologically available plasma adrenaline concentration.
AbstractList	Adrenaline inhibits insulin secretion from pancreatic beta cells to allow an organism to cover immediate energy needs by unlocking internal nutrient reserves. The stimulation of α2-adrenergic receptors on the plasma membrane of beta cells reduces their excitability and insulin secretion mostly through diminished cAMP production and downstream desensitization of late step(s) of exocytotic machinery to cytosolic Ca concentration ([Ca ] ). In most studies unphysiologically high adrenaline concentrations have been used to evaluate the role of adrenergic stimulation in pancreatic endocrine cells. Here we report the effect of physiological adrenaline levels on [Ca ] dynamics in beta cell collectives in mice pancreatic tissue slice preparation. We used confocal microscopy with a high spatial and temporal resolution to evaluate glucose-stimulated [Ca ] events and their sensitivity to adrenaline. We investigated glucose concentrations from 8-20 mM to assess the concentration of adrenaline that completely abolishes [Ca ] events. We show that 8 mM glucose stimulation of beta cell collectives is readily inhibited by the concentration of adrenaline available under physiological conditions, and that sequent stimulation with 12 mM glucose or forskolin in high nM range overrides this inhibition. Accordingly, 12 mM glucose stimulation required at least an order of magnitude higher adrenaline concentration above the physiological level to inhibit the activity. To conclude, higher glucose concentrations stimulate beta cell activity in a non-linear manner and beyond levels that could be inhibited with physiologically available plasma adrenaline concentration. Adrenaline inhibits insulin secretion from pancreatic beta cells to allow an organism to cover immediate energy needs by unlocking internal nutrient reserves. The stimulation of α2-adrenergic receptors on the plasma membrane of beta cells reduces their excitability and insulin secretion mostly through diminished cAMP production and downstream desensitization of late step(s) of exocytotic machinery to cytosolic Ca 2+ concentration ([Ca 2+ ] c ). In most studies unphysiologically high adrenaline concentrations have been used to evaluate the role of adrenergic stimulation in pancreatic endocrine cells. Here we report the effect of physiological adrenaline levels on [Ca 2+ ] c dynamics in beta cell collectives in mice pancreatic tissue slice preparation. We used confocal microscopy with a high spatial and temporal resolution to evaluate glucose-stimulated [Ca 2+ ] c events and their sensitivity to adrenaline. We investigated glucose concentrations from 8-20 mM to assess the concentration of adrenaline that completely abolishes [Ca 2+ ] c events. We show that 8 mM glucose stimulation of beta cell collectives is readily inhibited by the concentration of adrenaline available under physiological conditions, and that sequent stimulation with 12 mM glucose or forskolin in high nM range overrides this inhibition. Accordingly, 12 mM glucose stimulation required at least an order of magnitude higher adrenaline concentration above the physiological level to inhibit the activity. To conclude, higher glucose concentrations stimulate beta cell activity in a non-linear manner and beyond levels that could be inhibited with physiologically available plasma adrenaline concentration. Adrenaline inhibits insulin secretion from pancreatic beta cells to allow an organism to cover immediate energy needs by unlocking internal nutrient reserves. The stimulation of α2-adrenergic receptors on the plasma membrane of beta cells reduces their excitability and insulin secretion mostly through diminished cAMP production and downstream desensitization of late step(s) of exocytotic machinery to cytosolic Ca2+ concentration ([Ca2+]c). In most studies unphysiologically high adrenaline concentrations have been used to evaluate the role of adrenergic stimulation in pancreatic endocrine cells. Here we report the effect of physiological adrenaline levels on [Ca2+]c dynamics in beta cell collectives in mice pancreatic tissue slice preparation. We used confocal microscopy with a high spatial and temporal resolution to evaluate glucose-stimulated [Ca2+]c events and their sensitivity to adrenaline. We investigated glucose concentrations from 8-20 mM to assess the concentration of adrenaline that completely abolishes [Ca2+]c events. We show that 8 mM glucose stimulation of beta cell collectives is readily inhibited by the concentration of adrenaline available under physiological conditions, and that sequent stimulation with 12 mM glucose or forskolin in high nM range overrides this inhibition. Accordingly, 12 mM glucose stimulation required at least an order of magnitude higher adrenaline concentration above the physiological level to inhibit the activity. To conclude, higher glucose concentrations stimulate beta cell activity in a non-linear manner and beyond levels that could be inhibited with physiologically available plasma adrenaline concentration.
Author	Skelin Klemen, Maša Sarikas, Srdjan Pfabe, Johannes Slak Rupnik, Marjan Postić, Sandra Korošak, Dean Sluga, Nastja Križančić Bombek, Lidija Stožer, Andraž Kerčmar, Jasmina
AuthorAffiliation	2 Center for Physiology and Pharmacology, Medical University of Vienna , Vienna , Austria 1 Faculty of Medicine, Institute of Physiology, University of Maribor , Maribor , Slovenia 3 Alma Mater Europaea, European Center Maribor , Maribor , Slovenia
AuthorAffiliation_xml	– name: 1 Faculty of Medicine, Institute of Physiology, University of Maribor , Maribor , Slovenia – name: 3 Alma Mater Europaea, European Center Maribor , Maribor , Slovenia – name: 2 Center for Physiology and Pharmacology, Medical University of Vienna , Vienna , Austria
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Keywords	forskolin [Ca2+]c oscillations adrenaline concentration dependency islets cAMP beta cells
Language	English
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 This article was submitted to Diabetes: Molecular Mechanisms, a section of the journal Frontiers in Endocrinology Reviewed by: Wolfgang F. Graier, Medical University of Graz, Austria; Andrei I. Tarasov, Ulster University, United Kingdom Edited by: Manami Hara, The University of Chicago, United States
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SubjectTerms	[Ca2+]c oscillations adrenaline Animals beta cells cAMP concentration dependency Endocrinology Epinephrine Glucose - metabolism Insulin - metabolism Insulin-Secreting Cells - metabolism islets Islets of Langerhans - metabolism Mice Pancreatic Hormones - metabolism
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Title	Physiological levels of adrenaline fail to stop pancreatic beta cell activity at unphysiologically high glucose levels
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